陶瓷学报
陶瓷學報
도자학보
JOURNAL OF CERAMICS
2015年
3期
301-305
,共5页
张迎%刘瑞祥%刘永启%郑斌%孟建%毛明明
張迎%劉瑞祥%劉永啟%鄭斌%孟建%毛明明
장영%류서상%류영계%정빈%맹건%모명명
煤矿乏风%预热催化氧化装置%数学模型%FlexPDE
煤礦乏風%預熱催化氧化裝置%數學模型%FlexPDE
매광핍풍%예열최화양화장치%수학모형%FlexPDE
ventilation air methane%preheating catalytic monolithic reactor%mathematical model%FlexPDE
为了进一步研究低浓度瓦斯预热催化氧化特性,基于自主研发的预热催化氧化装置,建立甲烷预热催化氧化反应一维数学模型。利用一维非均质连续数学模型建立蜂窝陶瓷氧化床模型,该模型包括四个守恒方程:气相质量守恒方程、固相质量守恒方程、气相能量守恒方程、固相能量守恒方程;利用集总参数法建立预热器模型。通过FlexPDE软件数值计算蜂窝陶瓷氧化床温度分布规律,并与实验结果进行对比。计算结果表明:建立的数学模型基本符合甲烷催化氧化的反应特性,所得模拟结果与实验结果较为吻合;蜂窝陶瓷氧化床轴向温度呈先显著升高后缓慢下降的趋势;随着甲烷浓度的增大,氧化床轴向温度升高;随着甲烷风量的增大,氧化床轴向温度升高。
為瞭進一步研究低濃度瓦斯預熱催化氧化特性,基于自主研髮的預熱催化氧化裝置,建立甲烷預熱催化氧化反應一維數學模型。利用一維非均質連續數學模型建立蜂窩陶瓷氧化床模型,該模型包括四箇守恆方程:氣相質量守恆方程、固相質量守恆方程、氣相能量守恆方程、固相能量守恆方程;利用集總參數法建立預熱器模型。通過FlexPDE軟件數值計算蜂窩陶瓷氧化床溫度分佈規律,併與實驗結果進行對比。計算結果錶明:建立的數學模型基本符閤甲烷催化氧化的反應特性,所得模擬結果與實驗結果較為吻閤;蜂窩陶瓷氧化床軸嚮溫度呈先顯著升高後緩慢下降的趨勢;隨著甲烷濃度的增大,氧化床軸嚮溫度升高;隨著甲烷風量的增大,氧化床軸嚮溫度升高。
위료진일보연구저농도와사예열최화양화특성,기우자주연발적예열최화양화장치,건립갑완예열최화양화반응일유수학모형。이용일유비균질련속수학모형건립봉와도자양화상모형,해모형포괄사개수항방정:기상질량수항방정、고상질량수항방정、기상능량수항방정、고상능량수항방정;이용집총삼수법건립예열기모형。통과FlexPDE연건수치계산봉와도자양화상온도분포규률,병여실험결과진행대비。계산결과표명:건립적수학모형기본부합갑완최화양화적반응특성,소득모의결과여실험결과교위문합;봉와도자양화상축향온도정선현저승고후완만하강적추세;수착갑완농도적증대,양화상축향온도승고;수착갑완풍량적증대,양화상축향온도승고。
Based on the preheating catalytic oxidation reactor designed by Shandong University of Technology, an one-dimensional mathematical model was set up to further investigate the preheating catalytic oxidation characteristics of ventilation air methane in coal mine. A heterogeneous one dimensional continuum model was chosen for honeycomb ceramic oxidation bed, and it includes four conservation equations as follow, the lfuid concentration conservation equation, solid concentration conservation equation, lfuid temperature conservation equation and solid temperature conservation equation. The model of the preheater was built with lumped parameter method. The temperature distribution of honeycomb ceramic oxidation bed was simulated by FlexPDE, and the results were compared with experimental results. It shows that the mathematical model can roughly describe the preheating catalytic oxidation characteristics of ventilation air methane, and the simulation results show a good agreement with the experimental results. The axial temperature of the preheating catalytic oxidation reactor drops slowly after a signiifcant rise. With the methane concentration increasing, the axial temperature of the oxidation reactor increases. With the methane lfow increasing, the axial temperature of the oxidation reactor increases.